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Value of Using Multiple Proteases for Large-Scale Mass Spectrometry-Based Proteomics
| Title | Value of Using Multiple Proteases for Large-Scale Mass Spectrometry-Based Proteomics |
| Publication Type | Journal Article |
| Year of Publication | 2010 |
| Authors | Swaney, DL, Wenger, CD, Coon, JJ |
| Journal | Journal of Proteome Research |
| Volume | 9 |
| Pagination | 1323-1329 |
| Date Published | Mar |
| Accession Number | ISI:000275088100014 |
| Keywords | Biochemical Research Methods, digestion, dissociation, electron transfer, electron-transfer dissociation, enhanced sequence coverage, enzymatic, global analysis, identification, mass spectrometry, model organisms, ms/ms, peptide, phosphoproteome, proteins, proteomics, yeast proteome |
| Abstract | Large-scale protein sequencing methods rely on enzymatic digestion of complex protein mixtures to generate a collection of peptides for mass spectrometric analysis. Here we examine the use of multiple proteases (trypsin, LysC, ArgC, AspN, and GluC) to improve both protein identification and characterization in the model organism Saccharomyces cerevisiae. Using a data-dependent, decision tree-based algorithm to tailor MS2 fragmentation method to peptide precursor, we identified 92 095 unique peptides (609 665 total) mapping to 3908 proteins at a 1% false discovery rate (FDR). These results were a significant improvement upon data from a single protease digest (trypsin) - 27 822 unique peptides corresponding to 3313 proteins. The additional 595 protein identifications were mainly from those at low abundances (i.e., |
| Short Title | J. Proteome Res |
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